TWI822852B - Inspection equipment and inspection methods - Google Patents
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- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/28—Testing of electronic circuits, e.g. by signal tracer
- G01R31/2851—Testing of integrated circuits [IC]
- G01R31/2886—Features relating to contacting the IC under test, e.g. probe heads; chucks
- G01R31/2891—Features relating to contacting the IC under test, e.g. probe heads; chucks related to sensing or controlling of force, position, temperature
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- G—PHYSICS
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- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/28—Testing of electronic circuits, e.g. by signal tracer
- G01R31/2851—Testing of integrated circuits [IC]
- G01R31/2855—Environmental, reliability or burn-in testing
- G01R31/2872—Environmental, reliability or burn-in testing related to electrical or environmental aspects, e.g. temperature, humidity, vibration, nuclear radiation
- G01R31/2874—Environmental, reliability or burn-in testing related to electrical or environmental aspects, e.g. temperature, humidity, vibration, nuclear radiation related to temperature
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- G01R1/00—Details of instruments or arrangements of the types included in groups G01R5/00 - G01R13/00 and G01R31/00
- G01R1/02—General constructional details
- G01R1/04—Housings; Supporting members; Arrangements of terminals
- G01R1/0408—Test fixtures or contact fields; Connectors or connecting adaptors; Test clips; Test sockets
- G01R1/0416—Connectors, terminals
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R1/00—Details of instruments or arrangements of the types included in groups G01R5/00 - G01R13/00 and G01R31/00
- G01R1/02—General constructional details
- G01R1/06—Measuring leads; Measuring probes
- G01R1/067—Measuring probes
- G01R1/073—Multiple probes
- G01R1/07307—Multiple probes with individual probe elements, e.g. needles, cantilever beams or bump contacts, fixed in relation to each other, e.g. bed of nails fixture or probe card
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- G—PHYSICS
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- G01R1/067—Measuring probes
- G01R1/073—Multiple probes
- G01R1/07307—Multiple probes with individual probe elements, e.g. needles, cantilever beams or bump contacts, fixed in relation to each other, e.g. bed of nails fixture or probe card
- G01R1/07342—Multiple probes with individual probe elements, e.g. needles, cantilever beams or bump contacts, fixed in relation to each other, e.g. bed of nails fixture or probe card the body of the probe being at an angle other than perpendicular to test object, e.g. probe card
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/28—Testing of electronic circuits, e.g. by signal tracer
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- G01R31/28—Testing of electronic circuits, e.g. by signal tracer
- G01R31/2851—Testing of integrated circuits [IC]
- G01R31/2886—Features relating to contacting the IC under test, e.g. probe heads; chucks
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L21/00—Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof
- H01L21/67—Apparatus specially adapted for handling semiconductor or electric solid state devices during manufacture or treatment thereof; Apparatus specially adapted for handling wafers during manufacture or treatment of semiconductor or electric solid state devices or components ; Apparatus not specifically provided for elsewhere
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- H01L22/30—Structural arrangements specially adapted for testing or measuring during manufacture or treatment, or specially adapted for reliability measurements
- H01L22/34—Circuits for electrically characterising or monitoring manufacturing processes, e. g. whole test die, wafers filled with test structures, on-board-devices incorporated on each die, process control monitors or pad structures thereof, devices in scribe line
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- G—PHYSICS
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- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
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- G01R31/28—Testing of electronic circuits, e.g. by signal tracer
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- G01R31/2886—Features relating to contacting the IC under test, e.g. probe heads; chucks
- G01R31/2887—Features relating to contacting the IC under test, e.g. probe heads; chucks involving moving the probe head or the IC under test; docking stations
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Abstract
[課題]能以低成本並且短時間在各種溫度條件下進行正確的電特性之檢查。 [解決手段]一種檢查裝置,其係進行被檢查體之檢査,該檢查裝置具有:載置部,其係載置上述被檢查體;溫度調整機構,其係被設置在上述載置部且調整該載置部之溫度;中間連接構件,其係被配設成位於檢查部和探針卡之間,該檢查部係在與上述被檢查體之間接收發送電特性檢查用之電訊號,該探針卡具有於上述電特性檢查時接觸於上述被檢查體之端子,並且該中間連接構件設置有電性連接上述檢查部和上述探針卡的連接件;位置調整機構,其係進行上述載置部和上述探針卡之位置調整;溫度測定構件,其係被設置在上述中間連接構件且測定該中間連接構件之溫度;事前溫度調整部,其係以於上述電特性檢查之前,先進行上述探針卡之溫度調整之方式,控制上述溫度調整機構和上述位置調整機構;及判定部,其係於根據上述事前溫度調整部進行上述探針卡之溫度調整之時,根據以上述溫度測定構件被測定出之上述中間連接構件之溫度,判定上述探針卡之溫度是否安定。[Issue] It is possible to perform accurate inspection of electrical characteristics under various temperature conditions at low cost and in a short time. [Solution] An inspection device that performs inspection of an object to be inspected, the inspection device having: a placing portion that places the object to be inspected; and a temperature adjustment mechanism that is provided in the placing portion and adjusts the The temperature of the placing part; the intermediate connection member is disposed between the inspection part and the probe card; the inspection part receives and transmits electrical signals for electrical characteristic inspection between the inspection part and the object under inspection; The probe card has terminals that are in contact with the object to be inspected during the electrical characteristic inspection, and the intermediate connection member is provided with a connector that electrically connects the inspection part and the probe card; a position adjustment mechanism performs the above-mentioned loading. The position adjustment of the placement part and the above-mentioned probe card; the temperature measuring member is installed on the above-mentioned intermediate connection member and measures the temperature of the intermediate connection member; and the advance temperature adjustment part is performed before the above-mentioned electrical characteristics inspection. The temperature adjustment method of the probe card controls the temperature adjustment mechanism and the position adjustment mechanism; and a determination unit that measures the temperature when the temperature adjustment of the probe card is performed according to the previous temperature adjustment unit. The measured temperature of the intermediate connecting member determines whether the temperature of the probe card is stable.
Description
本揭示係關於檢查裝置及檢查方法。 This disclosure relates to inspection devices and inspection methods.
專利文獻1揭示使被配列在探針卡之複數探針分別接觸於被溫度調整之被檢查體之電極墊而進行電性測定之檢查方法。在該檢查方法中,使作為溫度感測器之熱電偶和加熱器內置於被設置在探針卡之下面側的針固定台,於探針接觸於電極墊之前,使用上述熱電偶和加熱器,將探針卡進行預備溫度調整成被檢查體之溫度。
[專利文獻1]日本特開平5-175289號公報 [Patent Document 1] Japanese Patent Application Publication No. 5-175289
本揭示所涉及之技術能夠以低成本並且短時間在各種溫度條件下進行正確的電特性之檢查。 The technology involved in the present disclosure can perform accurate inspection of electrical characteristics under various temperature conditions at low cost and in a short time.
本揭示之一態樣係一種檢查裝置,其係進行被檢查體之檢查,該檢查裝置具有:載置部,其係載置上述被檢查體;溫度調整機構,其係被設置在上述載置部且調整該載置部之溫度;中間連接構件,其係被配設成位於檢查部和探針卡之間,該檢查部係在與上述被檢查體之間接收發送電特性檢查用之電訊號,該探針卡具有於電特性檢查時接觸於上述被檢查體之端子,並且該中間連接構件設置有電性連接上述檢查部和上述探針卡的連接件;位置調整機構,其係進行上述載置部和上述探針卡之位置調整;溫度測定構件,其係被設置在上述中間連接構件且測定該中間連接構件之溫度;事前溫度調整部,其係以於上述電特性檢查之前,先進行上述探針卡之溫度調整之方式,控制上述溫度調整機構和上述位置調整機構;及判定部,其係於根據上述事前溫度調整部進行上述探針卡之溫度調整之時,根據以上述溫度測定構件被測定出之上述中間連接構件之溫度,判定上述探針卡之溫度是否安定。 An aspect of the present disclosure is an inspection device for inspecting an object to be inspected, the inspection device having: a placement portion for placing the object to be inspected; and a temperature adjustment mechanism provided on the placement portion. and adjust the temperature of the placing part; the intermediate connecting member is disposed between the inspection part and the probe card, and the inspection part receives and sends telecommunications for electrical characteristic inspection with the object under inspection. No. 1, the probe card has terminals that are in contact with the object to be inspected during electrical characteristic inspection, and the intermediate connection member is provided with a connector that electrically connects the inspection part and the probe card; a position adjustment mechanism is The position adjustment of the above-mentioned placing part and the above-mentioned probe card; a temperature measuring member which is provided on the above-mentioned intermediate connection member and measures the temperature of the intermediate connection member; and a preliminary temperature adjustment part which is arranged before the above-mentioned electrical characteristics inspection. The method of first adjusting the temperature of the probe card is to control the above temperature adjustment mechanism and the above position adjustment mechanism; and a determination unit, which is based on the above-mentioned method when the temperature adjustment of the probe card is performed according to the above-mentioned preliminary temperature adjustment unit. The temperature of the intermediate connection member measured by the temperature measuring member determines whether the temperature of the probe card is stable.
若藉由本揭示能夠以低成本並且短時間在各種溫度條件下進行正確的電特性之檢查。 Through this disclosure, it is possible to conduct accurate inspection of electrical characteristics under various temperature conditions at low cost and in a short time.
1:檢查裝置 1: Check the device
22d:事前溫度調整部 22d: Preliminary temperature adjustment department
22e:判定部 22e:Judgment Department
40:測試器 40:Tester
51:挾盤頂 51: Hold the top of the plate
52:溫度調整機構 52: Temperature adjustment mechanism
53:對準器 53:Aligner
70:彈性框架 70: Flexible framework
71:彈簧銷 71: spring pin
75:溫度感測器 75:Temperature sensor
80:探針卡 80: Probe card
82:探針 82:Probe
W:晶圓 W:wafer
[圖1]為表示本實施型態所涉及之檢查裝置之構成之概略的上面橫剖面圖。 [Fig. 1] is a top cross-sectional view schematically showing the structure of the inspection device according to this embodiment.
[圖2]為表示本實施型態所涉及之檢查裝置之構成之概略的正面縱剖面圖。 [Fig. 2] is a front longitudinal sectional view schematically showing the structure of the inspection device according to this embodiment.
[圖3]為表示各分割區域內之構成的正面縱剖面圖。 [Fig. 3] is a front longitudinal cross-sectional view showing the structure of each divided area.
[圖4]為圖3之部位放大圖。 [Figure 4] is an enlarged view of the part in Figure 3.
[圖5]為示意性地表示控制部之構成之概略的方塊圖。 FIG. 5 is a block diagram schematically showing the structure of a control unit.
[圖6]為用以說明使用本實施型態所涉及之檢查裝置之檢查處理之一例的流程圖。 [Fig. 6] is a flowchart illustrating an example of inspection processing using the inspection device according to this embodiment.
在半導體製造過程中,在半導體晶圓(以下,有稱為「晶圓」)上形成持有特定電路圖案之多數電子裝置。所形成的電子裝置被進行電特性等之檢查,被篩選成良品和不良品。電子裝置之檢查係在例如各電子裝置被分割之前的晶圓之狀態,使用檢查裝置被進行。 In the semiconductor manufacturing process, many electronic devices holding specific circuit patterns are formed on a semiconductor wafer (hereinafter referred to as a "wafer"). The formed electronic devices are inspected for electrical characteristics, etc., and sorted into good products and defective products. Inspection of electronic devices is performed using an inspection device, for example, in the state of the wafer before each electronic device is divided.
在被稱為探針等之電子裝置之檢查裝置中設置具有作為多數端子之探針的探針卡。再者,檢查裝置具有位置對準部和檢查部。位置對準部係使被設置在探針卡之各探針位置對準並使接觸於晶圓上之電子裝置之電極。檢查部係將電性特定檢查用之電訊號經由探針而在電子裝置之間發送接收。根據來自該檢查部檢測的電子裝置之電 訊號判定該電子裝置是否不良品。 A probe card having probes as a plurality of terminals is provided in an inspection device of an electronic device called a probe or the like. Furthermore, the inspection device has a positioning part and an inspection part. The positioning unit aligns the probes provided on the probe card and makes them contact the electrodes of the electronic device on the wafer. The inspection unit sends and receives electrical signals for specific electrical inspection between electronic devices via probes. According to the electricity from the electronic device detected by the inspection department The signal determines whether the electronic device is defective.
再者,近年來之檢查裝置中,在載置晶圓之載置台,設置加熱手段或冷卻手段,以使可以在高溫或低溫進行電子裝置之電特性檢查。 Furthermore, in recent inspection equipment, a heating means or a cooling means is provided on a stage on which a wafer is placed, so that the electrical characteristics of the electronic device can be inspected at high or low temperatures.
然而,在高溫或低溫進行電子裝置電特性檢查之情況,由於來自電子裝置即是晶圓之熱被傳熱至包含探針之探針卡,故晶圓及探針卡熱膨脹或熱收縮。但是,因兩者之熱膨脹率不同,故在常溫時和高溫時或低溫時,電極墊和探針之相對位置偏移,有在高溫時或低溫時無法進行正確的電特性檢查之情況。 However, when electrical characteristics of electronic devices are inspected at high or low temperatures, the wafer and the probe card thermally expand or shrink because the heat from the electronic device, that is, the wafer, is transferred to the probe card including the probes. However, because the thermal expansion coefficients of the two are different, the relative positions of the electrode pads and the probes deviate between normal temperature and high or low temperature, making it impossible to perform accurate electrical characteristic inspection at high or low temperatures.
對此,在專利文獻1之檢查裝置中,使熱電偶和加熱器內置於被設置在探針卡之下面側的針固定台,於探針接觸於電極墊之前,使用上述熱電偶和加熱器,將探針卡預備溫度調整成被檢查體之溫度。
On the other hand, in the inspection device of
但是,探針卡區分使用因應檢查之內容的複數種類,再者,即使相同種類的探針卡每經過特定期間也被更換。因此,如專利文獻1般,使熱電偶或加熱器內置在探針卡之構成在成本之考量有改善的餘地。
However, multiple types of probe cards are used in accordance with the contents of inspection, and probe cards of the same type are replaced every certain period of time. Therefore, as in
再者,也有採用在探針卡不設置熱電偶或加熱器,藉由載置台內之加熱手段,隔著該載置台加熱探針卡,將其加熱時間設為特定時間以上,使探針卡接近於被檢查體之溫度的方法。在採用該方法之情況,為了確實地防止電極墊和探針之相對位置之偏移,上述特定時間被設定成較大。但是,當上述特定時間大時,直至開始電特性 檢查為止,需要長時間。 Furthermore, there is also a method in which the probe card is not provided with a thermocouple or a heater, and the probe card is heated across the mounting table by heating means in the mounting table, and the heating time is set to a specific time or more, so that the probe card A method that is close to the temperature of the object being inspected. When this method is adopted, in order to reliably prevent the relative positions of the electrode pads and probes from shifting, the above-mentioned specific time is set to be larger. However, when the above specific time is large, until the electrical characteristics start It will take a long time to check.
於是,本揭示所涉及之技術能夠以低成本並且短時間在各種溫度條件下進行正確的電特性之檢查。 Therefore, the technology involved in the present disclosure can perform accurate inspection of electrical characteristics under various temperature conditions at low cost and in a short time.
以下,針對本實施型態所涉及之檢查裝置及檢查方法,一面參照圖面一面予以說明。另外,在本說明書及圖面中,針對實質上具有相同功能構成之要素,藉由標示相同符號,省略重複說明。 Hereinafter, the inspection device and inspection method according to this embodiment will be described with reference to the drawings. In addition, in this specification and the drawings, elements having substantially the same functional configuration are designated by the same reference numerals, and repeated descriptions will be omitted.
圖1及圖2分別為本實施型態所涉及之檢查裝置之構成之概略的上面橫剖面圖及正面縱剖面圖。 1 and 2 are respectively a top transverse sectional view and a front longitudinal sectional view schematically showing the structure of the inspection device according to this embodiment.
如圖1及圖2所示般,檢查裝置1具有框體10,在該框體10設置搬入搬出區域11、搬運區域12、檢查區域13。搬入搬出區域11係對檢查裝置1進行作為被檢查體之晶圓W之搬入搬出的區域。搬運區域12係連接搬入搬出區域11和檢查區域13的區域。再者,檢查區域13係進行被形成在晶圓W之電子裝置之電特性之檢查的區域。
As shown in FIGS. 1 and 2 , the
搬入搬出區域11,設置容納收容有複數晶圓W之卡匣C的埠口20、收容後述探針卡之裝載器21、控制檢查裝置1之各構成要素的控制部22。
The loading and
在搬運區域12配置能夠在保持有晶圓W等之狀態移動自如的搬運裝置30。該搬運裝置30係在搬入搬出區域11之埠口20內之卡匣C,和檢查區域13之間進行晶圓W之搬運。再者,搬運裝置30係將被固定在檢查區域13內之後述彈性框架之探針卡之中需要維修者朝搬入搬出區域11之裝載器21搬運。並且,搬運裝置30係將新品或已維修
完的探針卡從裝載器21朝檢查區域13內之上述彈性框架搬運。
The
檢查區域13設置複數作為檢查部之測試器40。具體而言,檢查區域13係如圖2所示般,在垂直方向被分割成3個,在各分割區域13a設置有由被配列在水平方向(圖之X方向)之4個測試器40構成的測試器列。再者,在各分割區域13a設置一個位置對準部50,和一個攝影機60。另外,測試器40、位置對準部50、攝影機60之數量或配置可以任意選擇。
The
測試器40係在與晶圓W之間接收發送電特性檢查用之電訊號。
The
位置對準部50係載置晶圓W,進行將該被載置之晶圓W,和被配設在測試器40之下方的探針卡之位置對準,移動自如地被設置在測試器40之下方的區域內。
The
攝影機60係水平移動,位於設置有該攝影機60之分割區域13a內之各測試器40之前,攝影被配設在該測試器40之下方的探針卡,和被載置於位置對準部50之晶圓W的位置關係。
The
在該檢查裝置1中,在搬運裝置30朝向一個測試器40而搬運晶圓W之期間,其他測試器40可以進行被形成在其他晶圓W之電子裝置之電特性的檢查。
In the
接著,使用圖3及圖4,針對與測試器40和位置對準部50有關之構成予以說明。圖3為表示各分割區域13a內之構成的正面縱剖面圖。圖4為圖3之部分放大圖。
Next, the structure related to the
測試器40係如圖3及圖4所示般,在底部具有被水平設置的測試器主機板41。在測試器主機板41豎立狀態安裝有無圖示之複數檢查電路基板。再者,在測試器主機板41之底面設置複數電極。
As shown in FIGS. 3 and 4 , the
並且,在測試器40之下方,由上側起依序設置一個作為中間連接構件之彈性框架70和一個探針卡80。
Furthermore, below the
在測試器40之周圍,複數支持壁10b從形成各分割區域13a之上壁10a朝垂直方向下方伸出。而且,在互相相向之支持壁10b之下部安裝有彈性框架70,藉由該些互相相向之支持壁10b及被安裝於該支持壁10b間的彈性框架70,各測試器40被支持。
Around the
彈性框架70係支持探針卡80,同時電性連接該探針卡80和測試器40,被配設成位於測試器40和探針卡80之間。該彈性框架70具有作為電性連接測試器40和探針卡80之連接件的彈簧銷71。具體而言,彈性框架70具有保持多數彈簧銷71之彈性塊72,和形成有藉由該彈性塊72被嵌插而安裝彈簧銷71之安裝孔73a的框架本體部73。框架本體部73係以高強度且高剛性,熱膨脹係數小的材料,例如NiFe合金形成。另外,若為NiFe合金時,則可以也提升框架本體部73之熱傳導性。
The
在彈性框架70之下面,探針卡80在被位置對準於特定位置之狀態下被真空吸附。
Under the
再者,在彈性框架70之下面,以圍繞探針卡80之安裝位置之方式,安裝朝垂直下方伸出的波紋管74。波紋管74
係在使後述挾盤頂上之晶圓W接觸於探針卡80之後述探針之狀態,用以形成包含探針卡80和晶圓W的密閉空間。
Furthermore, below the
針對被設置在彈性框架70之溫度感測器75於後述。
The
再者,彈性框架70之各彈簧銷71係依據藉由真空機構(無圖示)而作用於彈性框架70及探針卡80之真空吸引力,其下端與在探針卡80之後述卡本體81中對應於上面之電極墊接觸。再者,藉由上述真空吸引力,各彈簧銷71之上端被推壓至測試器主機板41之下面的對應電極。
Furthermore, each
探針卡80具有圓板狀之卡本體81,和被設置在卡本體81之上面的複數電極墊(無圖示),和從卡本體81之下面朝向下方延伸之複數針狀端子亦即探針82。被設置在卡本體81之上面的上述複數電極分別與對應的探針82電性連接。再者,於檢查時,探針82分別與被形成在晶圓W之電子裝置中之電極墊或焊料凸塊接觸。因此,於電特性檢查時,經由彈簧銷71、被設置在卡本體81之上面的電極及探針82,在測試器主機板41和晶圓W上之電子裝置之間,接收發送檢查所需的電訊號。
The
位置對準部50被構成能夠載置作為載置部的挾盤頂51,其係載置晶圓W,同時吸附該被載置的晶圓W。在挾盤頂51被埋設溫度調整機構52。該溫度調整機構52係藉由於電特性檢查時進行挾盤頂51之溫度調整,可以將被載置於挾盤頂51之晶圓W之電特性檢查時之溫度調整成例如-30℃~+130℃。
The
再者,位置對準部50具有作為支持挾盤頂51,且使該
挾盤頂51在上下方向(圖之Z方向)、前後方向(圖之Y方向)及左右方向(圖之X方向)移動之位置調整機構的對準器53。
Furthermore, the positioning
在藉由該位置對準部50所致的位置對準,使挾盤頂51上之晶圓W和探針卡80之探針82接觸之狀態,形成包含探針卡80和晶圓W之密閉空間,藉由真空機構(無圖示)將其密閉空間予以抽真空。此時,藉由使對準器53朝下方移動,挾盤頂51從對準器53被切離,被吸附於彈性框架70側。
In a state where the wafer W on the
在具有上述各構成構件之檢查裝置1中,作為測定彈性框架70之溫度的溫度測定構件的溫度感測器75被設置在該彈性框架70。具體而言,通過彈性框架70中之探針卡80之上方之部分的插通孔73b被形成在彈性框架70,由熱電偶等構成之溫度感測器75被安裝於該插通孔73b。而且,溫度感測器75係在彈性框架70測定位於探針卡80之上方之部分的溫度。另外,插通孔73b因為彈性框架70之上面及下面被其他零件佔有,故被形成從彈性框架70之側面往水平方向延伸至探針卡之上方之部分。再者,即使改變插通孔73b之位置或孔深等,設置複數溫度感測器75亦可。
In the
在以上之檢查裝置1如上述般設置有控制部22。圖5為示意性地表示控制部22之構成之概略的方塊圖。
The
控制部22係由例如具備有CPU或記憶體等之電腦構
成,具有程式儲存部(無圖示)。在程式儲存部儲存有控制在檢查裝置1之各種處理的程式。另外,上述程式係被記錄於例如電腦可讀取之記憶媒體者,即使為從該記憶媒體被安裝於控制部22者亦可。
The
控制部22具有記憶部22a、檢查時溫度調整部22b、測溫結果取得部22c、事前溫度調整部22d、判定部22e和其他判定部22f。
The
記憶部22a記憶電特性檢查時之晶圓W之設定溫度等。
The
檢查時溫度調整部22b係於檢查時控制被設置在挾盤頂51之溫度調整機構52等,將被載置於挾盤頂51之晶圓W之溫度控制成與被記憶於記憶部22a之設定溫度對應的溫度。
The
側溫結果取得部22c係從測定彈性框架70之溫度的溫度感測器75取得其測定結果。
The side temperature result acquisition part 22c acquires the measurement result from the
事前溫度調整部22d係於電特性檢查之前,先控制溫度調整機構52或對準器53等,依據藉由溫度調整機構52被溫度調整之挾盤頂51,進行探針卡80之溫度調整。
The preliminary
判定部22e係判定於事前溫度調整部22d所致的探針卡80之溫度調整之時,探針卡80之溫度是否穩定。由於彈性框架70係以熱傳導性高之材料形成,故在各時點的彈性框架70之溫度對應於探針卡80之溫度。於是,在判定部22e,根據測溫結果取得部22c所取得的彈性框架70之溫度之測定結果,判定探針卡80之溫度是否穩定。判定之
結果,若探針卡80之溫度穩定時,在檢查裝置1中,開始電特性檢查。另外,藉由增大探針卡80和彈性框架70之接觸面積,尤其探針卡和彈性框架70之框架本體部73之接觸面積,可以提高探針卡80和彈性框架70之間的導熱性。
The
判定部22f係根據測溫結果取得部22c所取得的彈性框架70之溫度之測定結果,判定測試器40之狀態。
The
藉由判定部22f,判定在測試器40產生異常之情況,在檢查裝置1中,藉由報知手段(無圖示)進行其主旨之資訊的報知,即是測試器40之狀態所涉及之資訊的報知。
The
接著,針對使用檢查裝置1之檢查處理使用圖6予以說明。圖6為用以說明上述檢查處理之一例的流程圖。另外,在以下之說明中,設為從無載置晶圓W之挾盤頂51對所有的測試器40,即是對所有彈性框架70被安裝的狀態,開始處理。
Next, the inspection process using the
於電特性檢查之時,首先,根據使用者操作者,該檢查時之晶圓W之設定溫度被重新設定,或被變更且被設定(步驟S1)。電特性檢查時之晶圓W之設定溫度與每個分割區域13a共同。
During the electrical characteristic inspection, first, the set temperature of the wafer W during the inspection is reset, or changed and set according to the user operator (step S1). The set temperature of the wafer W during the electrical characteristics inspection is the same for each divided
而且,藉由事前溫度調整部22d於電特性檢查之前,先進行探針卡80之溫度調整(步驟S2)。具體而言,溫度調
整機構52藉由事前溫度調整部22d被控制,無載置晶圓W而被安裝於彈性框架70之挾盤頂51,被調整成與電特性檢查時之晶圓W之設定溫度對應的溫度(以下,挾盤頂設定溫度)。藉由來自該被溫度調整之挾盤頂51的熱之供給或該挾盤頂51所致的吸熱,進行探針卡80之溫度調整。
Furthermore, the temperature of the
探針卡80之溫度調整中,判定部22e係根據溫度感測器75所致的彈性框架70之溫度之測定結果,判定探針卡80之溫度是否穩定(步驟S3)。判定部22e係例如以溫度感測器75所測定出之彈性框架70之每單位時間之溫度變化(具體而言,上述溫度變化之絕對值)成為臨界值以下之情況,判定成探針卡80之溫度穩定。再者,判定部22e係以溫度感測器75所測定出之彈性框架70之溫度到達至與電特性檢查時之挾盤頂設定溫度對應之特定溫度之情況,判定成探針卡80之溫度穩定。
During the temperature adjustment of the
藉由判定部22e無判定探針卡80之溫度穩定之情況(NO之情況),處理返回至步驟S2,探針卡80之溫度的調整持續。
Since the
另外,在判定探針卡80之溫度穩定之情況(YES之情況),對準器53或真空機構(無圖示)等被控制,挾盤頂51返回至對準器53,探針卡80之事前的溫度調整結束。
In addition, when it is determined that the temperature of the
於探針卡80之溫度調整後,進行檢查對象之晶圓W和探針卡80之位置對準(步驟S4)。具體而言,搬運裝置30等被控制,從搬入搬出區域11之埠口20內之卡匣C取出晶圓W,被搬入至檢查區域13內,被載置於挾盤頂51上。接著,對準器53及攝影機60被控制,進行挾盤頂51上之晶圓W和探針卡80之水平方向所涉及的位置對準。接著,挾盤頂51上升至探針卡80之探針82和被形成在晶圓W之電子裝置之電極接觸為止。之後,在探針82和上述電極接觸之狀態,真空機構(無圖示)等被控制,同時對準器53下降,依此,挾盤頂51被切離,該挾盤頂51被吸附於彈性框架70。
After the temperature of the
另外,於使探針82和電子裝置之電極接觸之前,溫度調整機構52被控制,晶圓W被溫度調整成電特性檢查時之晶圓W的設定溫度。
In addition, before the
而且,從測試器40經由彈簧銷71等而對探針82輸入電特性檢查用之電訊號,開始電子裝置之電特性檢查(步驟S5)。檢查中,藉由檢查時溫度調整部22b,溫度調整機構52被控制,被載置於挾盤頂51之晶圓W之溫度被調整成被記憶於記憶部22a的設定溫度。
Then, the electrical signal for electrical characteristic inspection is input from the
當電特性檢查完成時,對準器53或搬運裝置30等被控制,晶圓W返回至埠口20內之卡匣C。
When the electrical characteristic inspection is completed, the
另外,在一個測試器40的檢查中,藉由對準器53,進行晶圓W朝其他測試器40的搬運或來自其他測試器40之晶
圓W的回收。
In addition, during the inspection of one
在使用檢查裝置1之檢查處理中,於檢查前進行的探針卡80之溫度調整中及/或檢查中,藉由判定部22f,根據以溫度感測器75所測定出之彈性框架70之溫度,判定測試器40是否產生異常。
In the inspection process using the
於檢查中等,彈性框架70之溫度不落在特定溫度區域內之情況,可想像在測試器40產生下述般的異常。例如,藉由彈性框架70和測試器40之測試器主機板41之熱膨脹的差異,有彈簧銷71和測試器主機板41之下面之電極的相對位置偏移之異常等。
During inspection, if the temperature of the
於是,藉由判定部22f,根據以溫度感測器75所測定出之彈性框架70之溫度,判定在測試器40是否產生異常,於產生異常之情況,經由報知手段(無圖示),進行報知。
Then, the
以上,若藉由本實施型態時,藉由被設置在挾盤頂51之溫度調整機構52,進行於電特性檢查之前先被進行的探針卡80之溫度調整。再者,根據以被設置在彈性框架70之溫度感測器75所測定出之彈性框架70之溫度,進行探針卡80之溫度是否穩定之判定,即是探針卡80之溫度調整之結束時序的決定。因此,不需要在消耗品亦即探針卡80設置溫度調整機構或溫度測定構件,再者,可以將探針卡80之溫度調整所需之時間設為適當的長度。依此,能以低成本並且短時間在各種溫度條件下進行正確的電特性之檢查。
As mentioned above, according to this embodiment, the temperature adjustment of the
另外,可考慮在支持壁10b等之裝置框架設
置溫度測定構件,根據在其溫度測定構件的測定結果,決定檢查前之探針卡80之溫度調整之結束時序。在該方法中,雖然可以排除裝置框架之溫度變化所致的伸長收縮之影響,但是檢查前之探針卡80之溫度調整需要長時間。若藉由本發明者們調查之結果,比起該方法,根據上述般之彈性框架70之溫度測定結果,決定檢查前之探針卡80之溫度調整之結束時序之方式,可以使該溫度調整所需的時間成為約1/4。
In addition, it may be considered to install the device frame on the supporting
另外,上述裝置框架之溫度變化所致的延伸及收縮,具體而言,裝置框架之延伸收縮對對準器53和探針卡80之平行度造成的影響,可以藉由在對準器53設置水平調整機構來排除。
In addition, the expansion and contraction caused by the temperature change of the device frame, specifically, the impact of the expansion and contraction of the device frame on the parallelism of the
再者,在本實施型態中,是否產生測試器40之異常的判定,使用在探針卡80之溫度調整之結束時序的決定所使用的彈性框架70之溫度的資訊。即是,若藉由本實施型態,是否產生測試器40之異常的判定,亦可以使用在探針卡80之溫度調整之結束時序的決定所使用的彈性框架70之溫度的資訊。
Furthermore, in this embodiment, information on the temperature of the
應理解成此次揭示的實施型態所有的點皆為例示,並非用以限制。上述實施型態在不脫離附件的申請專利範圍及其主旨的情況下,即使以各種型態進行省略、替換或變更亦可。 It should be understood that all points of the implementation types disclosed this time are examples and are not intended to be limiting. The above-described embodiments may be omitted, replaced, or modified in various forms without departing from the patentable scope and gist of the appended claims.
另外,下述般之構成也屬於本揭示之技術性範圍。 In addition, the following configuration also falls within the technical scope of the present disclosure.
(1)一種檢査裝置,其係進行被檢査體之檢査,該檢查裝置具有:載置部,其係載置上述被檢查體;溫度調整機構,其係被設置在上述載置部且調整該載置部之溫度;中間連接構件,其係被配設成位於檢查部和探針卡之間,該檢查部係在與上述被檢查體之間接收發送電特性檢查用之電訊號,該探針卡具有於上述電特性檢查時接觸於上述被檢查體之端子,並且該中間連接構件設置有電性連接上述檢查部和上述探針卡的連接件;位置調整機構,其係進行上述載置部和上述探針卡之位置調整;溫度測定構件,其係被設置在上述中間連接構件且測定該中間連接構件之溫度;事前溫度調整部,其係以於上述電特性檢查之前,先進行上述探針卡之溫度調整之方式,控制上述溫度調整機構和上述位置調整機構;及判定部,其係於根據上述事前溫度調整部進行上述探針卡之溫度調整之時,根據以上述溫度測定構件被測定出之上述中間連接構件之溫度,判定上述探針卡之溫度是否安定。 (1) An inspection device for inspecting an object to be inspected, the inspection device having: a placing portion on which the object to be inspected is placed; and a temperature adjustment mechanism which is provided on the placing portion and adjusts the The temperature of the placement part; the intermediate connection member is disposed between the inspection part and the probe card. The inspection part receives and transmits electrical signals for electrical characteristic inspection between the inspection part and the object under inspection. The probe The probe card has terminals that are in contact with the object to be inspected during the electrical characteristic inspection, and the intermediate connection member is provided with a connector that electrically connects the inspection part and the probe card; a position adjustment mechanism performs the above-mentioned placement. position adjustment of the above-mentioned probe card and the above-mentioned probe card; a temperature measurement component that is installed on the above-mentioned intermediate connection component and measures the temperature of the intermediate connection component; and a pre-temperature adjustment component that performs the above-mentioned inspection before the above-mentioned electrical characteristics inspection. A method for adjusting the temperature of the probe card controls the temperature adjustment mechanism and the position adjustment mechanism; and a determination unit that, when adjusting the temperature of the probe card according to the previous temperature adjustment unit, uses the temperature measurement component The measured temperature of the intermediate connection member is used to determine whether the temperature of the probe card is stable.
若藉由上述(1)時,藉由被設置在載置部之溫度調整機構,進行於電特性之檢查前先被進行的探針卡之溫度調整。再者,根據被設置在中間連接構件之溫度測定構件之 測定結果,進行探針卡之溫度所涉及之判定。因此,不需要在探針卡設置溫度調整機構或溫度測定構件,再者,可以將探針卡之溫度調整所需之時間設為適當的長度。依此,能以低成本並且短時間在各種溫度條件下進行正確的電特性之檢查。 If the above (1) is adopted, the temperature adjustment of the probe card that is performed before the inspection of the electrical characteristics is performed by the temperature adjustment mechanism provided on the mounting part. Furthermore, based on the temperature measuring member provided in the intermediate connecting member Based on the measurement results, a judgment is made regarding the temperature of the probe card. Therefore, there is no need to provide a temperature adjustment mechanism or a temperature measurement member in the probe card. Furthermore, the time required for temperature adjustment of the probe card can be set to an appropriate length. Accordingly, accurate electrical characteristics inspection can be performed under various temperature conditions at low cost and in a short time.
(2)如上述(1)記載之檢查裝置,其中,上述中間連接構件具有形成有安裝上述連接件之安裝孔的本體部,上述溫度測定構件被設置在上述本體部。 (2) The inspection device according to the above (1), wherein the intermediate connecting member has a main body portion in which a mounting hole for mounting the connecting member is formed, and the temperature measuring member is provided in the main body portion.
(3)如上述(1)或(2)記載之檢査裝置,其中,上述判定部係在以上述溫度測定構件所測定出的上述中間連接構件之溫度變化成為臨界值以下之情況,判定成上述探針卡之溫度穩定。 (3) The inspection device according to the above (1) or (2), wherein the determination unit determines that the temperature change of the intermediate connecting member measured by the temperature measuring means is below a critical value. The temperature of the probe card is stable.
(4)如上述(1)或(2)記載之檢査裝置,其中,上述判定部係在以上述溫度測定構件所測定出的上述中間連接構件之溫度到達至特定溫度之情況,判定成上述探針卡之溫度穩定。 (4) The inspection device according to the above (1) or (2), wherein the determination unit determines that the detection is detected when the temperature of the intermediate connecting member measured by the temperature measuring member reaches a specific temperature. The temperature of the needle card is stable.
(5)如上述(1)至(4)中之任一記載的檢查裝置,其中,具有根據在上述溫度測定構件的測定結果,判定上述檢查部之狀態的其他判定部,根據在上述其他判定部的判定結果,進行上述檢查部之狀態所涉及之資訊的報知。 (5) The inspection device according to any one of the above (1) to (4), further comprising another determination unit for determining the state of the inspection part based on the measurement result of the temperature measuring member. According to the judgment result of the department, the information related to the status of the above-mentioned inspection department is reported.
(6)一種檢查方法,其係藉由檢查裝置進行被檢查體之檢査, 上述檢查裝置具備:載置部,其係載置上述被檢查體;溫度調整機構,其係被設置在上述載置部且調整該載置部之溫度;中間連接構件,其係被配設成位於檢查部和探針卡之間,該檢查部係在與上述被檢查體之間接收發送電特性檢查用之電訊號,該探針卡具有於上述電特性檢查時接觸於上述被檢查體之端子,並且該中間連接構件設置有電性連接上述檢查部和上述探針卡的連接件;位置調整機構,其係進行上述載置部和上述探針卡之位置調整;溫度測定構件,其係被設置在上述中間連接構件且測定該中間連接構件之溫度;該檢查方法具有:溫度設定工程,其係設定在上述電特性檢查中的上述被檢查體之溫度;事前溫度調節工程,其係於上述電特性檢查之前,先因應被設定的上述被檢查體之溫度,控制上述溫度調整機構和上述位置調整機構,進行上述探針卡之溫度調節;判定工程,其係在上述事前溫度調整工程的上述探針卡之溫度調整之時,根據以上述溫度測定構件被測定出之上述中間連接構件之溫度,判定上述探針卡之溫度是否安定;位置對準工程,其係判定成上述探針卡之溫度穩定之 後,控制上述位置調整機構,進行上述探針卡和上述被檢查體之位置對準;及檢查工程,其係於上述位置對準工程後,使用上述檢查部而進行上述電特性檢查。 (6) An inspection method that uses an inspection device to inspect an object to be inspected, The above-mentioned inspection device is provided with: a placing part that places the above-mentioned object to be inspected; a temperature adjustment mechanism that is provided in the above-mentioned placing part and adjusts the temperature of the placing part; and an intermediate connection member that is arranged to The inspection part is located between the inspection part and the probe card. The inspection part receives and transmits electrical signals for electrical characteristic inspection with the object under inspection. The probe card has a contact point that contacts the object under inspection during the electrical characteristic inspection. a terminal, and the intermediate connection member is provided with a connector that electrically connects the inspection part and the probe card; a position adjustment mechanism that performs position adjustment of the placement part and the probe card; and a temperature measurement member that is The above-mentioned intermediate connecting member is installed and the temperature of the intermediate connecting member is measured; the inspection method includes: a temperature setting process, which is to set the temperature of the above-mentioned object to be inspected in the above-mentioned electrical characteristics inspection; and a prior temperature adjustment process, which is Before the above-mentioned electrical characteristic inspection, the above-mentioned temperature adjustment mechanism and the above-mentioned position adjustment mechanism are controlled according to the set temperature of the above-mentioned object to be inspected, and the temperature of the above-mentioned probe card is adjusted; the determination process is part of the above-mentioned prior temperature adjustment process. When adjusting the temperature of the probe card, it is determined whether the temperature of the probe card is stable based on the temperature of the intermediate connection member measured by the temperature measuring member; the positioning process determines whether the temperature of the probe card is stable. The temperature is stable Then, the above-mentioned position adjustment mechanism is controlled to perform position alignment between the above-mentioned probe card and the above-mentioned object to be inspected; and an inspection process is performed using the above-mentioned inspection part to conduct the above-mentioned electrical characteristic inspection after the above-mentioned position alignment process.
40:測試器 40:Tester
41:測試器主機板 41:Tester motherboard
50:位置對準部 50: Position alignment part
51:挾盤頂 51: Hold the top of the plate
52:溫度調整機構 52: Temperature adjustment mechanism
53:對準器 53:Aligner
70:彈性框架 70: Flexible framework
71:彈簧銷 71: spring pin
72:彈性塊 72:Elastic block
73:框架本體 73:Frame body
73a:安裝孔 73a:Mounting hole
73b:插通孔 73b: Insertion hole
74:波紋管 74: Bellows
75:溫度感測器 75:Temperature sensor
80:探針卡 80: Probe card
81:卡本體 81:Card body
82:探針 82:Probe
W:晶圓 W:wafer
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